Trapped individual ion at absolute zero temperature

¹Department of Physics, FM-15, University of Washington, Seattle, WA 98195

Abstract

Laser cooling and ion trapping have progressed to such an extent that one can now speak of realizing a confined atom at absolute zero temperature. In this short publication, we analyze an experiment toward such realization using a single Ba⁺ ion in a miniature rf trap. The Ba⁺ ion is first laser-cooled to the limit where the ion spends most of its time in the zero-point energy state. Then a test sequence allows one to verify whether or not the ion is actually in its zero-point state. The test sequence may also serve as a device for state selection of an atom at absolute zero temperature.

This Article

PNAS 1989-08 vol. 86 no. 15 5671-5671

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